Simplified Full Dynamic Analysis of a Railway Tunnel in Ethiopia

H. F. Gebregziabher, Tequamework Assefa
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Abstract

This paper presents an effective means of analyzing the safety of a tunnel under dynamic loading in areas with seismic records. A particular case of the railway tunnel in the earthquake-prone regions of the escarpment seismic zone of Ethiopia was the specific focus area of the research. Probabilistic seismic hazard analysis (PSHA) and deaggregation have been conducted to determine the design earthquake required as an input for the dynamic analysis. The PSHA performed by considering the operating design earthquake with conservative assumptions of the local geological features resulted in a peak ground acceleration of 0.36. Two pairs of design earthquake have been obtained from the deaggregation process, which were used to filter acceleration time histories for the selected design earthquake from the ground motion database of Pacific Earthquake Engineering Research Center. Finally, full dynamic analyses of the tunnel have been performed by applying the scaled acceleration time histories corresponding to the structure in the specific site. It was demonstrated how to prove the stability of the tunnel located in difficult ground conditions by performing plane strain analyses with the possible minimum computational efforts.
埃塞俄比亚某铁路隧道简化全动力分析
本文提出了一种分析有地震记录地区隧道在动力荷载作用下安全性的有效方法。埃塞俄比亚陡坡地震带地震易发地区铁路隧道的具体案例是研究的具体重点领域。进行了概率地震危险性分析(PSHA)和分解,以确定作为动力分析输入所需的设计地震。考虑运行设计地震并对局部地质特征进行保守假设的PSHA计算得到的峰值地加速度为0.36。通过解聚得到两对设计地震,并将其用于太平洋地震工程研究中心地震动数据库中所选设计地震的加速度时程滤波。最后,通过应用与特定场地结构相对应的标度加速度时程,对隧道进行了全面的动力分析。说明了如何在尽可能少的计算量的情况下,通过平面应变分析来证明位于困难地基条件下的隧道的稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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